Wrapping-machine.



L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED OGT.24,1914.

Patented Mar. 16, 1915.

15 SHEETS-SHEET 1.

ATTORNEYS WITNESSES L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED 00:1. 24. 1914.

Patented Hflar.16,1915

16 SHEETSSHEET 2.

WITNESSES ATTORNEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED 0017124, 1914v 1,131,881. Patented Mar.16,1915.

15 SHBETS-SHEET31 INVENTOR WITNESSES ATTORNEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED OCT. 24, 1914.

1,131,881. Patented Mar.16,1915.

15 SHEETSSHEET 4.

. INVENTUR ATTORNEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLIOATION FILED 001'. 24, 1914.

1,131,881. Patented Mar.16,1915.

16 SHEETBSHEET 5.

WITNESSES INVENTOR momuzvs L. H. WILBUR.

WRAPPING MACHINE.

AYPLIOATION FILED OUT. 24, 1914.

Patented Mar. 16, 1915.

15 SHEETSSHEET 6.

ATTORNEYS/I L. H. WILBUR.

WRAPPING MACHINE. APPLIGATION FILED OUT. 24, 1914.

1,131,881. Patented Mar. 16, 1915.

15 SHEETS-SHEET '1'.

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7/ I I A529" [MENTOR ATTORNEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED 001224, 19147 Patented Mar. 16, 1915.

16 SHEETS-SHEET 9.-

WITNESSES ATTORNEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION IILED 001'. 24, 1914.

1,1 81,881, Patented Mar. 16, 1915.

15 SHEETSSHEET 11.

minimum: M gimmnmkwllmm A96 1 I h 96 /74 74-' I I A: /g/ Oi jlNVENTUR Ww z' L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED 00124, 1914.

Patented Mar. 16, 1915.

16 BHBETSSHEET 12.

/7 ,w/ WITNESSES svfz m l m ATTDMJEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED 0013.24, 1914.

Patented Mar. 16, 1915.

19131578810 7 5SHEETSS BE 4 WITNESSES ATTORNEYS L. H. WILBUR.

WRAPPING MACHINE.

APPLICATION FILED OCT. 24, 1914.

1,131 881. Patented Mar. 16, 1915.

15 SHEETS-SHEET 15.

WRTNESSES l. p.

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ATWRNEYS UNITED STATES PATENT OFFICE.

LAWRENCE H. WILBUR, F PHILADELPHIA, PENNSYLVANIA, ASSIGNQE 3m Hp WILIBUR & SONS, INC., OF PHILADELPHIA, PENNSYLVANIA, A GORPOEATION OF PENNSYLVANIA.

Specification of Letters Patent.

WRAPPING-MACHINE.

Patented Mar. ac, rain,

Application flied October 24, 1914. Serial No. 888,387.

To all whom it may concern:

Be it known that I, LAWRENCE H. \VILBUR, a citizen of the United States, residing in the city and county of Philadelphia, State of Pennsylvania, have invented certain new and useful Improvements in Wrapping-Machines, of which the following is a specification.

My invention relates to the class of machine-s which are employed for the wrapping or enveloping with tin-foil of what are known in the trade as chocolate buds, or kindred special confections or articles of approximately conical shape.

My present invention is an improvement upon the wrapping machine invented by me and patented November 1, 1910, under United States Letters Patent No. 974,453, granted H. O. lVilbur & Sons, incorporated, to which patent reference is made.

The general organization of my present, as well as of my former, machine, comprehends cooperating mechanisms or devices which perform certain essential functions, namely :means for intermittently revolving a pocket-provided, bud-carrying disk, the pockets of which are manually filled with budsvplaced base downward ;means for feeding beneath the bud-filled pockets as they are successively presented, a strip of tin-foil;means for cutting the strip step by step to squares of a desired size means for plunging the buds seriatim with a square of foil beneath the base of each, upon a toggle-carrier and in so doing forcing the foil into tubular or cylindrical shape about the sides of the bud ;means for twisting-in or compressing about the sides of the bud the foil so formed up means for completing the foregoing action by further twisting or compressing the foilabout the crown or apex of the bud ;and means for ejecting the wrapped buds from the machine.

The primary object of my present invention is to improve the machine of my former patent by increasing its efficiency and capacity, by rendering its operation more positive and rapid, and by adapting to it certain devices which enable me to apply to the chocolate bud beneath its base and within its tin-foil wrapper, a label of paper or other preferred material upon which may be in scribed the name of the manufacturer, the

operation of the bud-carrying toggles or toggle-carriers, and to assure the closest possible and most effective twisting-over and wrapping of the foil about the bud, and the positive ejection or discharge of the latter from the carrier.

With these and other ends in view, my invention consists in the novel constructions, combinations, locations, arrangements and modes of operation, of the parts or conjunctive elements, represented in the accompanying drawings, hereinafter described and specifically recited in the claims.

In the accompanying drawings which represent a preferred form of a machine embodying my invention-Figure 1, Sheet 1, is a top plan view of the machine in its entirety. Fig. 2, Sheet 2, is an elevation of the front of the machine, sight being taken in the direction of the arrow 3/ on Fig. 1. Fig. 3, Sheet 3, isan elevation of the back of the machine, sight being taken in the direction of the arrow on on Fig. 1. Fig. 4, Sheet 4, is an elevation of the left hand side of the machine, sight being taken in the direction of the arrow .2 on Fig. 1. Fig. 5, Sheet 5, is an elevation of the right hand side of the machine, sight being taken in the direction of the arrow w on Fig. 1. Fig. 6, Sheet 6, is a vertical, sectional, front elevation through the label magazine and portions of the label-suction devices which serve to suck or draw down the labels from the magazine into the bud pockets of the intermittently revoluble bud-carrying or feeding disk. Figs. 7 8, 9 and 10, Sheet 6, are fragmentary views, partly elevational and partly sectional, of component elements or members of the label-sucking devices. Fig. 11, Sheet 7, is a vertical, sectional, front elevation through the foil-feeding rollers, the budplunger and one of the toggle-carriers for feeding the buds. Fig. 12, Sheet 8, is a front elevational view, partly sectional, of portions of the bud-plunger, the turret,

means for driving the turret, the knockerarm, one of the toggle-carriers, the foil-feed operating cams an ing rollers, and means for drivin them. Fig. 13, Sheet 9, is a to plan view illustratin the anchor ring, the turret checks, the ho ding-down arm and portions of the turret-operating rack and connections. Fig. 14, Sheet 10, is afront elevational view, partly sectional, of the turret, the turret shaft, a pair of the tog 'le-carriers extended and unclutched', the clutches on said carriers, the turret-operating rack-bar and various gearings hereinafter described. Fig. 15, Sheet 11, is a fragmentary, left-hand side eleva-' tional view, partly sectional, illustrating one of the toggle-carriers compressed 4 and clutched, the gear and ratchet connections operating the turret, the foil-compressing fingers and rockers, and the hftm cam for lifting them. Fig. 16, Sheet 11, IS a fragmentary side elevation of a ratchet and pawl connection of the turret. Fig. 17, Sheet 12, is a front elevational view of a portion of the turret and bud-carrying disk, illustrating also a portion of the foil-bumpers and the-bumper cams. Fig. 18, Sheet 12, is a right-hand side elevational view of one of the bumper-levers more particularly illus trated in Figs. 24 and 25. Figs. 19 and 20, Sheet 12, are fragmentary details, partly in section and partly in elevation, of one of the foil-bumpers. Figs. 21 and 22, Sheet 13, are-top plan views of the foil-compressing fin ers and rockers and their operatin cams an springs,Fig. 21 showing the 'ngers separated and Fig. 22 showing them compressed to encompass a bud and compress upon it the foil. Fig. 23, Sheet 13, is a lefthand side elevation, partly sectional, of the knocker-ofi' or device for ejecting a wrapped bud from a toggle-carrier into the discharging chute. Fig. 24, Sheet 14, is a top plan of the foil-bumpers bumper-levers and their s ring, shown removed from the machine an in the separated position of the bumpers. Fig. 25, Sheet 14, is a fragmentary plan of the foil-bumpers and the free ends of their operating levers broken off and in the position which they occupy when compressed or forced together upon the bud. Figs. 26, 27 and 28, Sheet 15, are detailed views of the rocking toothed-segment which operates the foil-feeding rolls, Fig. 26 being a back elevation and Figs. 27 and 28 left hand side elevations. Fig. 29, Sheet 15, is a left-hand side elevational view of the foil-cutting knife. Fig. 30, Sheet 15, is a fragmentary, sectional, elevation of a clutch to throw the operating cam of the rocking toothed segment of the foil-feeding rollers into or out of operation. Fig. 31, Sheet 15,- is a fragmentary, partl sectional, righthand side elevational view of the ratchet gear particularly represented in Fig. 26, with its members separated. Fig. 32, Sheet 3, is a fragmentary, sectional detail of the brake mechanism which controls the foil-feeding rolls. Fig. 33, Sheet 3, is a fragmentary edge-sectional detail on the dotted line 'v-'v of Fig. 34, through parts of the movable and fixed members of the supporting bracket for the tin foil reel. Fig. 7 34,-Sheet 3, is a fragmentary, side-sectional detail on the dotted lines uu of Fig. 33, through the same parts. Fig. 35, Sheet 4, is a fragmentary plan of a ortiori of the top plate of the frame and the ring which en- 7 compasses the bud-carrier, illustrating the carrier lock. Fi 36, Sheet 4, is a fragmentary detail, partl sectional and partly elevational, of the hud-carrier lock, illustrating in particular the rocking lever and cam 8 which operate it. Fig. 37, Sheet 5, is a top plan of the top disk of the turret, showing the lugs for the toggles and the turret check. Figs. 38 and 39, Sheet 5, are fragmentary details of the turret check and the com- 3 corresponding parts. 9

Referring to the drawings :the frame of the machine consists of .the bed plate 1,-- standards 2, 3, 4 and 5 and top plate 6.

The shafts and their functions-Journaled across the front of the machine is a 1 horizontal shaft, which I designate the front shaft 7,'to distinguish it from a horizontal shaft journaled and extending across the left-hand side of the machine, which I designate the side shaft 8, and also from a hori 1 zontal shaft journaled and extending across the back ofthemachine, which I designate the back shaft 9. The front shaft 7 is driven through the spur gears 10 and 11, by

a driving-shaft 12, 3ournaled in the frame- 1 work, and operated by a fast and loose driving pulley 13, and driving belt 14. A cone clutch 15 illustrated in Fig. 1 and in Fig. 4-0. Sheet 2, and operated by the double ended lever 16 controls the rotation of the driv- 1 ing shaft. A hand wheel 17 on the front shaft 7 permits of the manual operation of said shaft when desired. The front shaft 7 and side shaft 8 are connected through the bevel gears 18 and the side shaft 8 and back 1 shaft 9 through the bevel gears 19.

20 designates a countershaft paralleling and journaled below the back shaft, as indicated in Fig. 3, and driven by said shaft through the intervention of spur gears 21 l and 22, as indicated in Figs. 3 and 5.

The functions of the several shafts are as follows :The front shaft 7 is the instrumentality which not only imparts rotation to the side, back, and counter, shafts, but 1 Fig. 41, Sheet 2, is a fragmentary de- 9 also conjunctively occasions the intermittent stoppage of the rotation of the turret, the operation of the bUCl-(EJOCtlllg devices, the bud plunger and the foil-cutting kn fe. The side shaft 8 operates the devices which supply the labels to the buds,certa1n of the devices which control given movements of the toggle carriers,and the devlces which drive and control the foil-feeding rolls. The back shaft 9 drives the countershaft 20, and operates the devices which occasion the intermittent rotation of the budcarrying disk, those which exert the first compression of the foil about the s1des 0f the bud, the devices which occasion the 1n termittent operation of the bud-carrying disk, and the devices which lock its rotary movement step by step. The countershaft operates the devices which impart to the turret its movements of step by step but continuous rotation,and the devices which, through intermittent connections, operate the toggle-carriers of the turret to effect their stop and start rotations.

The bud-carrying disk and connections. 23 designates the bud-carrying disk or budcarrier, being an intern'iittently revoluble circular plate or disk upon the top of the frame and conveniently resting peripherally upon a flat circular ring 24, Figs. and 36, Sheet 1. This bud-carrier is circumferentially and near its peripheral edge perforated or pierced with a series of equidistantly spaced bud-pockets 25, which as the disk revolves are manually filled with the chocolate buds to be wrapped, placed base downwardly so as to rest upon and travel along the ring.

I The means for rotating the bud-carrier are the following:Referring to Figs. 1, 2, S, and 17,--26 designates a rotatable shaft, stepped at 27 upon the bed plate 1, extending through the top plate 6 of the frame, and locked or fastened to the bud-carrier 23, so as, when itself intermittently rotated, to impart intermittent revolution to said bud-carrier. 28 designates a ratchet wheel keyed to the disk shaft 26 below the top plate of the frame and adapted to occasion the intermittent rotation of said'shaft and revolution of said bud-carrier through the intervention of a ratchet arm 29, Fig. 1, to which is connected the spring-controlled pawl 30, and which interiorly surrounds and is adapted to swing with respect to the shaft 26 as a pivot, and exteriorly is connected by the connecting joint 31 with an eccentric rod 32 operated by an eccentric 33 on the back shaft 9.

The means for locking the bud-carrier are the following :Referring to Figs. 1, 3, 35 and 36,--3 l designates a series of locking sockets, equidistantly spaced circumferentially of the bud-carrier on its under surface, and at distances apart correspondent to those of the bud-pockets 25. 35 designates a locking pin, movable within a vertical bearing 36 beneath the top-plate of the frame, and adapted to be raised into or withdrawn from the sockets 34,as, in the revolution of the bud-carrier, they are successively presented,through the medium of a lever 37 positively operated by a cam 38 on the back shaft 9, and controlled by a spring 39.

The label-applying dem'cea-lteferring to Figs. 1, 2, 3, 4, 5, and 6,40 designates the label magazine vertically erected upon a bracket 39 above the top plate of the frame, and designed to be manually filled with a stack of labels 11, which it is one of the objects of my invention to insert one by one beneath the bases of the buds, so as each to be encompassed within and wrapped over by the foil about the bud. The magazine, as the drawings indicate, is so disposed relatively to the bud-carrier, that each of the bud pockets is successively brought into alinement beneath its lower discharging opening, which, as shown in Fig. 6, has an inwardly projecting flange 42 upon which the stack of labels rest. In the rotation of the carrier disk in the direction of the arrow upon it shown in Fig. 1, an empty bud pocket is assumed to be brought into line beneath the magazine so as to receive a label before the pocket is supplied with the bud which the operator places upon the label. The pockets having, therefore, one after another been filled with the labels upon which the buds have been placed, are carried around to beneath the bud plunger or device which follows the labeled bud down upon the square of tin foil which is to be wrapped about said labeled bud,all as hereinafter explained. r

The devices for applying the labels are operated by suction and are particularly illustrated in Figs. 4, 6, 7, 8, 9 and 10. 43 is a bushing adapted to be moved vertically within a bushing aperture 1% through the top plate 6 and the ring 24; of the frame by means of a bushing link 15. This link is pivoted to a link-head 46 fast upon the exterior of a sleeve 47 which has a sliding up and down movement within the hollow bore 48 of the bushing 43. 49 is a bushing lever to which the lower end of the bushing link i5 is pivoted, and which is itself fulcrumed at 50 and operated by a cam 51 on the side shaft 8. 52 is a spring to counteract the thrust of the cam 51 in the tilting of the lever with respect to its fulcrum, the cam alternately raising and lowering the bushing link within a predetermined distance, and through said link the link heads,

46, the sleeve 47, and the label bushing 43. The label bushing 43 is chambered at 53, at its upper end (see Figs. 6, 8, and 9), so as to receive the nozzle head 54, Fig. 10,

which is of smaller external diameter than the internal diameter of the chamber, and which is provided with a tubular apert'ured spindie 55, the lower end of which 1s threaded within the upper end of the sleeve 47. 56 is a tubular recess formed within the label bushing 43 and surrounding the spindle of the nozzle head. 57 is what I term the nozzle tube, which is connected with the lower end of the sleeve 47 and passes downward through a stuffing box 58 into a valve piping 59, composed of sections of hollow tubes and connecting unions which it is unnecessary to describe, but which are shown in Fig. 6. 60 is a valve for connecting or disconnecting the hollow interior of the valve piping 59, and particularly the chamber 61 therein into which the open lower end of the nozzle tube 57 extends and terminates, with a connecting tube 62, which leads through pipe connections 63 to a suction tank 64, Fig. 4. Obviously, when the valve 60 is opened, the vacuum created through i the operation of the suction tank will extend through the chamber 53 within the label bushing 43, the tubular recess 56 in said bushing, the apertures of the spindle 55 of the nozzle head 54, the sleeve 47, the nozzle tube 57, the valve piping 59, and the pipe connections 63, so as to occasion a continuous draft or suction around the nozzle head. When, then, the nozzle head and its bushing are by the action of the cam 51 and lever 49, in the position represented in Fig. 8, the suction will cause the drawing down of the lowermost label of the stack within the magazine; upon the nozzle head, until by the further action of said cam and lever the nozzle and bushing being drawn down into the position represented in Fig. 9, the label will as to its peripheral edges be turned up within the bud pocket of the bud carrier, as shown in Fig. 9, and in such position, will remain until in the rotation of the carrier in the direction of the arrow represented in Fig. 1, said pocket shall, as hereinafter explained, have become alined beneath the bud plunger. The desired raising and lowering of the nozzle head and bushing through the operation of the cam 51 and lever 49, are intermittently but continuously performed throughout the period of the intermittent but continuous rotation of the bud carrier. In order, at the proper times, to create the requisite suction throughout the air passages between the valve 60 and the bushing chamber 53, it will be apparent that the valve must be opened and closed in predetermined consonance, with the movements of the nozzle head and bushing. This movement of opening and closing of the valve 60. at the appropriate times, is accomplished through the cam crank 65 connecting link 66 and the spring controlled cam-rocker 67 operated upon by the cam 68 on the side shaft 8, as shown in Figs. 2 and 7.

The foil feeding mechanisms.Referring to Figs. 1, 2, 3, 4, 11 and 12 --69 is a bracket for supporting the foil-carrying reel 7 70 from off which the foil 71 is carried in the direction of the arrows shown in Fig. 3, to the foil-feeding rolls 72 and 73. In order to permit of the exact adjustment of the foilcarrying reel 70,,so that its axial disposi- 7 tion may be nicely determined, its axle 74 is dropped within axle bearings 75, Figs. 33 and 34, formed in the movable top members 76 of the bracket 69. There being two of these top members, as Fig. 1 indicates, and 8 each of them being adjustable with respect to the fixed members which constitute the bracket proper 69, by means of a slot and bolt connection 77, the adjustment is rendered easy and accurate. To prevent the 8 too rapid unwinding of the foil from off the carrying roll 70, I employ a brake mechanism (Figs. 1, 2, 3, and 32) which consists of two pivotally swinging brake arms 78 and 79 connected by the carrying block 80 with 9 the bracket 69, and each provided with a. segmental braking surface 81 and 82, adapted to bear upon the roll and to be locked together by the swinging not lock 83. 84 designates a swinging arm which carries a 9 slack-counteracting roll 85 to render taut the strip of foil in its movement between the carrying reel and the feeding rolls. 86 is a directing guide plate over which the advance end of the strip of foil passes be- 1 fore it enters between the feed rolls 72 and 73.

Referrin to Figs. 11 and 12, 72 and 73 respectively esignate the upper and the lower foil feeding rolls carried upon shafts 88 and 1 89 in a frame 87 connected with or being a part of the frame of the machine. 90 and 91 are counterpart spur gears respectively employed to drive the upper and lower foilfeeding rolls, the upper ear 90 being driven 1 by the lower gear 91, w ich itself is driven by means represented in Figs. 26, 27, 28, 30 and 31, hereinafter referred to. 92 1s a lever connected with an eccentric 94 on a shaft 93, which, through links 95 is adapted 1 to raise the shaft 88 of the upper foil-feeding rolls 7 2, so as to lift said roll sufliciently clear of the lower foil feeding roll 73 to permit of the manual movement of the strip of foil between their separated driving sur- 1 faces. This is simply a device for the convenience of the operator in the adjustment of the foil.

Referring to Figs. 26, 27, 28, 30, and 31, 96 is a spur pinion free upon the shaft 89 of the lower foil-feeding roll 73, which is shown as in engagement with the rocking toothed segment 97, pivoted at 98, so as, in the oscillation of the segment, to be intermittently rotated first in one and then in the 11 ..ite'd rotary movement which through the gears 90 and 91, will-occasion the opposite 96. Obviously, the oscillation of'the' rock ing segment 9, in the direction of the arrow represented upon it in Figs. 27 and 2 8, will, through the spur 'pinion'96, occasion. the

rotary movement of the shaft 89' in the direction of the arrow represented upon it, with the result that through'the segment, ratchet wheel and pawl,"-the driving foil-- feed roll 7 3, will have imparted to it a limrotation of the foil-feeding rolls'in the di:

rection of the arrows upon them in Fig.11," with the-further result of feeding'forward; the strip of foil 71' in the direction of the arrow upon itin said figure, into the foil slot 101 formed between the carrierplate beneath the periphery of the bud carrying disk and the upper peripheral surface of the top plate of the frame, and in a radial direction below thebud-plunger 124 hereinafter'chascribed.

As it is desired to occasion the forward feed of the strip offoil intermittently and for only a limited distance at a time, it is apparent that the foil-feeding rolls must be intermittently stopped. This I accomplish by the reverse oscillation of the rocking segment 97, with the result that the pawl 100 slips backward over the ratchet .wheel 99 until the reverse throw of the segmen ceases.

Each of the oscillatory, or forward and back, movements of the rocking segment to accomplish the intermittent operation of the foil-feeding rolls, is efiected by the fast and loose segment-cam 102, Figs. 27 and 30, upon the side shaft 8, which treads against a cam roller 103 connected with the dependent arm 104 of the rocking segment 97, to which it is adj ustably connected by means of the adjusting screw 105, as shown in Figs. 27 and 28. This adjustment, as will be understood, is simply for the purpose of precisely limiting the throw of the segment to precisely adjust the feed of the foil-rolls. N

In order to enable the operator, at will, to throw the foil-feeding rolls out of operation, I provide appropriate means for throwing the cam 102 of the rocking segment 97 into or out of clutch with the continuously rotating side-shaft 8. This means is shown in Fig. 30, and preferably consists of a clutch lever 106, shown also in Fig. 1, which is adapted to throw a sliding collar 107 upon the side shaft 8 from right to left in said Fig. 30, so as to release a spring pin 108 carried by the collar and projecting laterally therefrom, from a pin-socket 109 formed in the side face of the'cam 102.- Thecam 102, as explained, being free upon the shaft 8,

and only'revol'vingwith therevolving collar when locked by the" pin, of course ceases to revolve when released from the pin.

110 (Fi ;s. 20, 27, and 28) is a coiled spring,-a justably connected as to one of its ends, by an inverted-end 111, with notches 112 in the" sideface of'the rocking segment, -'andas to the other end fixedly connected with the frame,'which serves to assure the balance "of the rocking segment about'its pivot and maintainthe roller 103 in contactwith the cam 102. l

The foil-cutting o'n'echam'sm.iln Figs. 5, 11, 12, and 29,-I show a foil-cutting mechanism consisting ofa pair of'shears having a movable blade 113' and a fixed blade 114', the object of which is to cut the advance end of the strip of foil as it is intermittently fed forward, into squares of appropriate dimensiens for enwrapping the loud. The fixed blade, as shown in Figs. 11 and 12, is affixed to a Vertical slot 115 in the top plate 6 of the frame, and the movable blade is pivoted at 116 within said slot, and opened and shut with respect to the fixed blade by a lever '117,connected with it at its outer end by a' link 118, fulcrumed at 119 to a hanger 120 from the top plate, and at its inner end provided with a cam roller 121, in contact through the medium of a coiled spring '122, with a shears cam 123 on the front shaft 7 of the machine. As the cam 12?) rotates in the direction of the arrow,

Fig. 29, with the front shaft, the shears will obviously be opened and closed.

The bud-plunging mec/um'z'sm.ln Figs. 1, 2, 3, 4, 5, 11, and 12,-I have illustrated a means for forcing the buds, one after another, through the pockets in the bud-carrying disk, in which they have been manually placed so as to rest upon the labels, as, 1n the rotation of said disk, said pockets are successively presented,and downwardly, with the labels beneath them, upon the successively presented squares of cut tin-foil, in such manner, as first, to force up the squares of tin foil around the sides of the buds into the tubular form illustrated 1n Figs. 11 and 12, and then, to deposit the lpud s so enfoiled upon the toggle-headset the toggle-carriers. For the performance of these op'erations,l employ what I term a bud-plunger 12 1, erected vertically in slide bearings 125, formed upon a bracket 126 upon the frame, and adapted to be raised and lowered by means of a walklng beam 127, pivoted at 128, upon a standard 129. The inner end of the walking beam is connected by links 130 with the bud-plunger, and its outer end is connected by links 131 to a vertical slide bar 132, adapted to'be moved up and down through a housing 133 upon the frame, by the action of a side cam 131 on the front shaft 7, within a sidegroove 135 in which is entered and travels 

